RU2073461C1 - Method of productivity increase in young sheep - Google Patents

Abstract

FIELD: veterinary science. SUBSTANCE: method involves the use of biologically active substances. The source of the latter is water-soluble polyelectrolyte complex of copolymer of N-vinylpyrrolidone and N,N,N,N-triethylmethacryloylhydroxyethyl-ammonium iodide with sodium dodecyl sulfate that is given with food or drink at daily doses 2-3 mg/kg living mass. Use of 1 kg polyelectrolyte complex during lamb growing ensured to obtain additionally 200-290 kg living mass gain and 12-13 kg washed wool of the improved quality. EFFECT: enhanced effectiveness of bioactive substance. 1 tbl

Description

 The invention relates to veterinary medicine, and more specifically to methods of increasing the productivity of sheep with the introduction of biologically active substances in the animal feed.

 The claimed invention can find widespread use in the cultivation of fine-fleeced young sheep.

Known methods for increasing the productivity of sheep based on the inclusion in a complete balanced diet of biologically active substances such as amino acids, vitamins, antibiotics, enzymes, fatty acids, hormonal preparations. A common disadvantage of these methods is their relatively low efficiency, since the increase in live weight does not exceed 3-10% [1]
In addition, biologically active substances such as antibiotics, enzymes, hormones can accumulate in the meat mass and have a negative effect on nutrition, especially on children. Therefore, in many countries such additives are prohibited.

 An effective method is described for increasing sheep productivity by subcutaneous immunization with a conjugate of the hormone somatostatin with protein. In this case, due to autoimmunization, the secretion of growth factor (somatomedin) is enhanced, and the growth rate of live weight of sheep increases to 134% [2] The method is implemented by primary immunization of three-week-old sheep with 600 mg of somatostatin conjugate with human plasma alpha-globulin and the subsequent conjugate through a two-week interval within 2.5 months [2] The disadvantage of this method is the low technology (due to the injection of the drug) and high costs (1 mg of somatostatin costs 215.2 Swiss francs, catalog Fluka, 1993/94, N 85480, p. 1221) , which leads to economic inexpediency of the implementation of the method.

 The task of the invention is to develop a method of increasing the productivity of young sheep, cost-effective and technological.

где: n 80-87 мол. m 17-20 мол. мольное отношение m:x 1:3,6-4,2; MM (23-120)•10³Д;
2. Полиэлектролитный комплекс вводят в подкормку или питье в суточных дозах 2^oC3 мг на 1 кг живой массы, начиная с трехнедельного и до 9-тимесячного возраста.This problem is solved in a way that includes a combination of the following essential features:
1. Young sheep are injected with a water-soluble polyelectrolyte complex of a copolymer of N-vinylpyrrolidone and N, N, N, N-triethylmethacryloyloxyethylammonium iodide with sodium dodecyl sulfate of the general formula:

where: n 80-87 mol. m 17-20 mol. molar ratio m: x 1: 3.6-4.2; MM (23-120) • 10 ³ D;
2. The polyelectrolyte complex is administered as a top dressing or drink in daily doses of 2 ^o C3 mg per 1 kg of live weight, starting from three weeks to 9 months of age.

 Distinctive features of the claimed invention are both signs of the claimed method.

 An analysis of the prior art showed the popularity of the water-soluble polyelectrolyte complex of the above structure [3] which is a growth promoter of young cattle. At the same time, it was not possible to find information about the new function of the known substance, which did not follow with obviousness either from its structure or from its known properties, since the new property was the ability to increase the quantity and quality of fleece wool in young sheep while stimulating meat productivity.

 It can also be noted that the experiments showed that the water-soluble polyelectrolyte complex of the above structure and composition is not a stimulator of the growth of all animal species: its effect was not revealed during the feeding of rabbits and minks. It is well known that only those ingredients that correspond to the nature of the animal should be included in the diet [4] For new biologically active substances it is difficult to predict the nature of the animal without experimental justification.

 The above confirms the compliance of the claimed invention with the legal conditions of patentability "novelty" and "inventive step".

 To prove the conformity of the claimed solution to the condition "industrial applicability", as well as to better understand the essence of the proposal, we give examples of specific implementations.

 Example 1. For research in the experimental farm "Temnolessky" of the Stavropol Territory, 140 queens with bright single individuals (sheep of the Caucasian breed) were selected. When the lambs reached 20 days of age from the selected livestock, 4 groups of animals of 35 uterus and lambs (larvae) were formed, each of which were similar in terms of wool and milk production of the uterus, age and live weight of the bright.

 In the experimental period (246 days) the animals of the experimental and control groups were kept in isolation, received the same basic diet according to existing feeding standards. In the diet of the lambs of the experimental groups in the stall (80-85 days) and grazing periods, a polyelectrolyte complex was added to mother's milk or grazing feed, respectively. Animals in the control group did not receive these additives.

 The results characterizing the effect of the polyelectrolyte complex on the productivity of lambs are presented in the table.

 Studies have shown that a decrease in daily doses of the polyelectrolyte complex below 2 mg / kg or an increase above 3 mg / kg leads to a decrease in the effectiveness of the action of the polyelectrolyte complex.

 In the claimed dose intervals, feeding 1 kg of the polyelectrolyte complex to the lambs provided an additional 200-290 kg of live weight and 12-13 kg of washed wool. At the same time, the quality of the wool improves: its tensile strength increases and the fineness increases.

 Specific studies have shown that the polyelectrolyte complex is not absorbed in the intestines of animals and is 100% removed from the body 72 hours after administration.

 For one animal for the entire period of feeding, no more than 25-30 g of the polyelectrolyte complex was spent.

Claims (1)

A method of increasing the productivity of young sheep by introducing biologically active substances into the animal organism, characterized in that a water-soluble polyelectrolyte complex of a copolymer of N-vinylpyrrolidone and N, N, N, N-triethylmethacryloyloxyethylammonium iodide with sodium dodecyl sulfate of the general formula

where n 80 87 mol.  m 13 20 mol. molar ratio mx 1 3.6 4.2, mol.m (23 120) • 10 ³ ,
the polyelectrolyte complex is administered to lambs with food or drink from 3 weeks of age to 9 months of age in daily doses of 2 3 mg per 1 kg of live weight.

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